module GHC.Tc.TyCl.Build (
buildDataCon,
buildPatSyn,
TcMethInfo, MethInfo, buildClass,
mkNewTyConRhs,
newImplicitBinder, newTyConRepName
) where
#include "HsVersions.h"
import GHC.Prelude
import GHC.Iface.Env
import GHC.Core.FamInstEnv( FamInstEnvs, mkNewTypeCoAxiom )
import GHC.Builtin.Types( isCTupleTyConName, unboxedUnitTy )
import GHC.Core.DataCon
import GHC.Core.PatSyn
import GHC.Types.Var
import GHC.Types.Var.Set
import GHC.Types.Basic
import GHC.Types.Name
import GHC.Types.Name.Env
import GHC.Types.Id.Make
import GHC.Core.Class
import GHC.Core.TyCon
import GHC.Core.Type
import GHC.Types.SourceText
import GHC.Tc.Utils.TcType
import GHC.Core.Multiplicity
import GHC.Types.SrcLoc( SrcSpan, noSrcSpan )
import GHC.Driver.Session
import GHC.Tc.Utils.Monad
import GHC.Types.Unique.Supply
import GHC.Utils.Misc
import GHC.Utils.Outputable
import GHC.Utils.Panic
mkNewTyConRhs :: Name -> TyCon -> DataCon -> TcRnIf m n AlgTyConRhs
mkNewTyConRhs tycon_name tycon con
= do { co_tycon_name <- newImplicitBinder tycon_name mkNewTyCoOcc
; let nt_ax = mkNewTypeCoAxiom co_tycon_name tycon etad_tvs etad_roles etad_rhs
; traceIf (text "mkNewTyConRhs" <+> ppr nt_ax)
; return (NewTyCon { data_con = con,
nt_rhs = rhs_ty,
nt_etad_rhs = (etad_tvs, etad_rhs),
nt_co = nt_ax,
nt_lev_poly = isKindLevPoly res_kind } ) }
where
tvs = tyConTyVars tycon
roles = tyConRoles tycon
res_kind = tyConResKind tycon
con_arg_ty = case dataConRepArgTys con of
[arg_ty] -> scaledThing arg_ty
tys -> pprPanic "mkNewTyConRhs" (ppr con <+> ppr tys)
rhs_ty = substTyWith (dataConUnivTyVars con)
(mkTyVarTys tvs) con_arg_ty
etad_tvs :: [TyVar]
etad_roles :: [Role]
etad_rhs :: Type
(etad_tvs, etad_roles, etad_rhs) = eta_reduce (reverse tvs) (reverse roles) rhs_ty
eta_reduce :: [TyVar]
-> [Role]
-> Type
-> ([TyVar], [Role], Type)
eta_reduce (a:as) (_:rs) ty | Just (fun, arg) <- splitAppTy_maybe ty,
Just tv <- getTyVar_maybe arg,
tv == a,
not (a `elemVarSet` tyCoVarsOfType fun)
= eta_reduce as rs fun
eta_reduce tvs rs ty = (reverse tvs, reverse rs, ty)
buildDataCon :: FamInstEnvs
-> Name
-> Bool
-> TyConRepName
-> [HsSrcBang]
-> Maybe [HsImplBang]
-> [FieldLabel]
-> [TyVar]
-> [TyCoVar]
-> [InvisTVBinder]
-> [EqSpec]
-> KnotTied ThetaType
-> [KnotTied (Scaled Type)]
-> KnotTied Type
-> KnotTied TyCon
-> NameEnv ConTag
-> TcRnIf m n DataCon
buildDataCon fam_envs src_name declared_infix prom_info src_bangs impl_bangs
field_lbls univ_tvs ex_tvs user_tvbs eq_spec ctxt arg_tys res_ty
rep_tycon tag_map
= do { wrap_name <- newImplicitBinder src_name mkDataConWrapperOcc
; work_name <- newImplicitBinder src_name mkDataConWorkerOcc
; traceIf (text "buildDataCon 1" <+> ppr src_name)
; us <- newUniqueSupply
; dflags <- getDynFlags
; let stupid_ctxt = mkDataConStupidTheta rep_tycon (map scaledThing arg_tys) univ_tvs
tag = lookupNameEnv_NF tag_map src_name
data_con = mkDataCon src_name declared_infix prom_info
src_bangs field_lbls
univ_tvs ex_tvs user_tvbs eq_spec ctxt
arg_tys res_ty NoRRI rep_tycon tag
stupid_ctxt dc_wrk dc_rep
dc_wrk = mkDataConWorkId work_name data_con
dc_rep = initUs_ us (mkDataConRep dflags fam_envs wrap_name
impl_bangs data_con)
; traceIf (text "buildDataCon 2" <+> ppr src_name)
; return data_con }
mkDataConStupidTheta :: TyCon -> [Type] -> [TyVar] -> [PredType]
mkDataConStupidTheta tycon arg_tys univ_tvs
| null stupid_theta = []
| otherwise = filter in_arg_tys stupid_theta
where
tc_subst = zipTvSubst (tyConTyVars tycon)
(mkTyVarTys univ_tvs)
stupid_theta = substTheta tc_subst (tyConStupidTheta tycon)
arg_tyvars = tyCoVarsOfTypes arg_tys
in_arg_tys pred = tyCoVarsOfType pred `intersectsVarSet` arg_tyvars
buildPatSyn :: Name -> Bool
-> PatSynMatcher -> PatSynBuilder
-> ([InvisTVBinder], ThetaType)
-> ([InvisTVBinder], ThetaType)
-> [Type]
-> Type
-> [FieldLabel]
-> PatSyn
buildPatSyn src_name declared_infix matcher@(_, matcher_ty,_) builder
(univ_tvs, req_theta) (ex_tvs, prov_theta) arg_tys
pat_ty field_labels
=
ASSERT2((and [ univ_tvs `equalLength` univ_tvs1
, ex_tvs `equalLength` ex_tvs1
, pat_ty `eqType` substTy subst (scaledThing pat_ty1)
, prov_theta `eqTypes` substTys subst prov_theta1
, req_theta `eqTypes` substTys subst req_theta1
, compareArgTys arg_tys (substTys subst (map scaledThing arg_tys1))
])
, (vcat [ ppr univ_tvs <+> twiddle <+> ppr univ_tvs1
, ppr ex_tvs <+> twiddle <+> ppr ex_tvs1
, ppr pat_ty <+> twiddle <+> ppr pat_ty1
, ppr prov_theta <+> twiddle <+> ppr prov_theta1
, ppr req_theta <+> twiddle <+> ppr req_theta1
, ppr arg_tys <+> twiddle <+> ppr arg_tys1]))
mkPatSyn src_name declared_infix
(univ_tvs, req_theta) (ex_tvs, prov_theta)
arg_tys pat_ty
matcher builder field_labels
where
((_:_:univ_tvs1), req_theta1, tau) = tcSplitSigmaTy $ matcher_ty
([pat_ty1, cont_sigma, _], _) = tcSplitFunTys tau
(ex_tvs1, prov_theta1, cont_tau) = tcSplitSigmaTy (scaledThing cont_sigma)
(arg_tys1, _) = (tcSplitFunTys cont_tau)
twiddle = char '~'
subst = zipTvSubst (univ_tvs1 ++ ex_tvs1)
(mkTyVarTys (binderVars (univ_tvs ++ ex_tvs)))
compareArgTys :: [Type] -> [Type] -> Bool
compareArgTys [] [x] = x `eqType` unboxedUnitTy
compareArgTys arg_tys matcher_arg_tys = arg_tys `eqTypes` matcher_arg_tys
type TcMethInfo = MethInfo
type MethInfo
= ( Name
, Type
, Maybe (DefMethSpec (SrcSpan, Type)))
buildClass :: Name
-> [TyConBinder]
-> [Role]
-> [FunDep TyVar]
-> Maybe (KnotTied ThetaType, [ClassATItem], [KnotTied MethInfo], ClassMinimalDef)
-> TcRnIf m n Class
buildClass tycon_name binders roles fds Nothing
= fixM $ \ rec_clas ->
do { traceIf (text "buildClass")
; tc_rep_name <- newTyConRepName tycon_name
; let univ_tvs = binderVars binders
tycon = mkClassTyCon tycon_name binders roles
AbstractTyCon rec_clas tc_rep_name
result = mkAbstractClass tycon_name univ_tvs fds tycon
; traceIf (text "buildClass" <+> ppr tycon)
; return result }
buildClass tycon_name binders roles fds
(Just (sc_theta, at_items, sig_stuff, mindef))
= fixM $ \ rec_clas ->
do { traceIf (text "buildClass")
; datacon_name <- newImplicitBinder tycon_name mkClassDataConOcc
; tc_rep_name <- newTyConRepName tycon_name
; op_items <- mapM (mk_op_item rec_clas) sig_stuff
; sc_sel_names <- mapM (newImplicitBinder tycon_name . mkSuperDictSelOcc)
(takeList sc_theta [fIRST_TAG..])
; let sc_sel_ids = [ mkDictSelId sc_name rec_clas
| sc_name <- sc_sel_names]
; let use_newtype = isSingleton arg_tys
args = sc_sel_names ++ op_names
op_tys = [ty | (_,ty,_) <- sig_stuff]
op_names = [op | (op,_,_) <- sig_stuff]
arg_tys = sc_theta ++ op_tys
rec_tycon = classTyCon rec_clas
univ_bndrs = tyConInvisTVBinders binders
univ_tvs = binderVars univ_bndrs
; rep_nm <- newTyConRepName datacon_name
; dict_con <- buildDataCon (panic "buildClass: FamInstEnvs")
datacon_name
False
rep_nm
(map (const no_bang) args)
(Just (map (const HsLazy) args))
[]
univ_tvs
[]
univ_bndrs
[]
[]
(map unrestricted arg_tys)
(mkTyConApp rec_tycon (mkTyVarTys univ_tvs))
rec_tycon
(mkTyConTagMap rec_tycon)
; rhs <- case () of
_ | use_newtype
-> mkNewTyConRhs tycon_name rec_tycon dict_con
| isCTupleTyConName tycon_name
-> return (TupleTyCon { data_con = dict_con
, tup_sort = ConstraintTuple })
| otherwise
-> return (mkDataTyConRhs [dict_con])
; let { tycon = mkClassTyCon tycon_name binders roles
rhs rec_clas tc_rep_name
; result = mkClass tycon_name univ_tvs fds
sc_theta sc_sel_ids at_items
op_items mindef tycon
}
; traceIf (text "buildClass" <+> ppr tycon)
; return result }
where
no_bang = HsSrcBang NoSourceText NoSrcUnpack NoSrcStrict
mk_op_item :: Class -> TcMethInfo -> TcRnIf n m ClassOpItem
mk_op_item rec_clas (op_name, _, dm_spec)
= do { dm_info <- mk_dm_info op_name dm_spec
; return (mkDictSelId op_name rec_clas, dm_info) }
mk_dm_info :: Name -> Maybe (DefMethSpec (SrcSpan, Type))
-> TcRnIf n m (Maybe (Name, DefMethSpec Type))
mk_dm_info _ Nothing
= return Nothing
mk_dm_info op_name (Just VanillaDM)
= do { dm_name <- newImplicitBinder op_name mkDefaultMethodOcc
; return (Just (dm_name, VanillaDM)) }
mk_dm_info op_name (Just (GenericDM (loc, dm_ty)))
= do { dm_name <- newImplicitBinderLoc op_name mkDefaultMethodOcc loc
; return (Just (dm_name, GenericDM dm_ty)) }
newImplicitBinder :: Name
-> (OccName -> OccName)
-> TcRnIf m n Name
newImplicitBinder base_name mk_sys_occ
= newImplicitBinderLoc base_name mk_sys_occ (nameSrcSpan base_name)
newImplicitBinderLoc :: Name
-> (OccName -> OccName)
-> SrcSpan
-> TcRnIf m n Name
newImplicitBinderLoc base_name mk_sys_occ loc
| Just mod <- nameModule_maybe base_name
= newGlobalBinder mod occ loc
| otherwise
= do { uniq <- newUnique
; return (mkInternalName uniq occ loc) }
where
occ = mk_sys_occ (nameOccName base_name)
newTyConRepName :: Name -> TcRnIf gbl lcl TyConRepName
newTyConRepName tc_name
| Just mod <- nameModule_maybe tc_name
, (mod, occ) <- tyConRepModOcc mod (nameOccName tc_name)
= newGlobalBinder mod occ noSrcSpan
| otherwise
= newImplicitBinder tc_name mkTyConRepOcc